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Query: UMLS:C0027819 (
neuroblastoma
)
27,800
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The pathogenesis of diabetic neuropathy is incompletely understood. The possibility that humoral neurotoxic factors contribute as a cause of diabetic neuropathy was tested by application of serum from patients with Type 1 and Type 2 diabetes to mouse
neuroblastoma
cells, which have the characteristics of adrenergic neurons in culture. Serum from patients with Type 1 diabetes and somatic neuropathy significantly inhibited both proliferation and differentiation of
neuroblastoma
cells, while serum from patients with Type 1 diabetes but no symptoms of neuropathy and patients with Type 2 diabetes and neuropathy had no effect on proliferation, and serum from Type 2 patients only marginally inhibited differentiation. The effects of Type 1 diabetic serum could be reversed by pre-absorption of the serum to
neuroblastoma
cells, and were independent of glucose levels. Immunoglobulins precipitated from the sera mimicked the effects of whole sera. These results suggest that
Type 1 diabetes mellitus
causes a change in serum composition, possibly related to autoimmunity, that is capable of contributing to adrenergic autonomic neuropathy in diabetic patients.
...
PMID:The toxic effects of serum from patients with type 1 diabetes mellitus on mouse neuroblastoma cells: a new mechanism for development of diabetic autonomic neuropathy. 830 88
Recent studies have linked autoimmunity to nervous tissue structures and diabetic autonomic neuropathy. To evaluate prospectively the early stage of
type 1 diabetes
and the natural history of this association, we monitored the autonomic function and the presence of autoantibodies (Ab) to sympathetic and parasympathetic nervous structures in a cohort of 92 diabetic adolescent patients, recruited and followed-up after 40+/-3 months. The presence of circulating Ab and their ability to activate complement was also assessed using a human adrenergic
neuroblastoma
cell line, and the effect of patients' sera on these cells was evaluated by different methods assessing cytotoxic effects and apoptosis. Thirty-nine percent of the Ab-positive patients had one abnormal test (p=0.07 vs. Ab-negative patients). Serum from four patients positive for anti-cervical ganglia Ab showed positive staining of
neuroblastoma
cells and displayed ability to activate complement. Serum from two adolescent patients with anti-cervical ganglia and anti-
neuroblastoma
cells Ab, induced cytotoxic effects and damaged the plasma membrane of the
neuroblastoma
cells. Moreover, sera from two adult patients with overt autonomic neuropathy, used as positive controls, induced apoptosis of these cells, assessed by TUNEL. Our data indicate that symptomatic autonomic neuropathy is not characteristic of young diabetic patients, but that autoantibodies to autonomic structures are present and persist in the first 20 years of disease, possibly associated with subtle autonomic dysfunction and cytotoxic effect on sympathetic cells.
...
PMID:Autonomic function and autoantibodies to autonomic nervous tissues at follow-up in a cohort of young patients with type 1 diabetes. Effects of serum from diabetic patients on human adrenergic cells. 1279 22
To identify risk factors associated with the development of diabetes mellitus and to describe the prevalence of diabetes in pediatric hematopoietic cell transplant (HCT) survivors. The follow-up records of 748 patients who survived for at least 2 years after pediatric HCT were retrospectively reviewed for diagnosis of diabetes. Risk factors for type 2 diabetes were analyzed using multivariate statistics. Among 748 patients with a median of 11 years of follow-up, 38 developed diabetes after HCT. Four patients (three leukemia and one
neuroblastoma
) developed
type 1 diabetes
8 to 14 years after HCT, at between 10 and 19 years of age. Thirty-four patients (32 leukemia and 2 aplastic anemia) developed type 2 diabetes 1 to 24 years after HCT, at between 11 and 41 years of age. Of the 34 patients with type 2 diabetes, 23 were non-Hispanic white, 3 had experienced asparaginase toxicity (hyperglycemia and/or pancreatitis), and 26 had a family history of diabetes. Risk factors associated with type 2 diabetes were diagnosis of acute or chronic leukemia, race/ethnicity other than non-Hispanic white, family history of diabetes, and asparaginase toxicity. The prevalence of
type 1 diabetes
among all surviving patients was 0.52%, or three times higher than the general U.S. population. The prevalence of type 2 diabetes was 9% among leukemia survivors and 2% among aplastic anemia survivors, both higher than expected. Pediatric HCT survivors are more likely to develop diabetes than the general population.
...
PMID:Diabetes mellitus in long-term survivors of pediatric hematopoietic cell transplantation. 1476 93
Substantial evidence collected from clinical data and experimental studies has indicated that CNS is not spared from diabetes complications. Impairments in CNS function are well documented in both type 1 and type 2 diabetic patients as well as in various animal models of diabetes, in terms of alterations in cognition, neuropsychology, neurobehavior, electrophysiology, structure, neurochemistry and apoptotic activities. These data suggest that primary diabetic encephalopathy exists as a definable diabetic complication. The mechanisms underlying this CNS complication are not clear. Experimental studies have suggested that neuronal apoptosis may play an important role in neuronal loss and impaired cognitive function. In diabetes multiple factors are responsible for neuronal apoptosis, such as a perturbed IGF system, hyperglycemia and the aging process itself. Recent data suggest that insulin/C-peptide deficiency may exert an eminent role. Administration of C-peptide partially corrects the perturbed IGF system in the brain and prevents neuronal apoptosis in hippocampus of
type 1 diabetes
. In
neuroblastoma
SH-SY5Y cells C-peptide provides a dose-dependent stimulation on cell proliferation and an anti-apoptotic effect as well. These studies provide a basis for administration of C-peptide as a potentially effective therapy for
type 1 diabetes
.
...
PMID:C-peptide and central nervous system complications in diabetes. 1519 73
Little is known about the psychosocial consequences of testing newborns for genetic susceptibility to multifactorial diseases. This study reports quantitative psychosocial evaluations of parents and children 12 years after screening for
type 1 diabetes
(T1D). Two parent-child cohorts participated: children at increased genetic risk of T1D and children at low genetic risk. T1D risk status was determined at birth as part of a prospective study investigating potential environmental triggers of autoimmunity. Parent measures included ratings of children's emotional, behavioural and social functioning (Child Behaviour Checklist) and parenting style (Alabama Parenting Questionnaire). Child self-concept was assessed using the self-description questionnaire (SDQ1). Statistical analyses were conducted to test for differences between the groups. Twelve years after testing there was no evidence that knowledge of a child's increased genetic risk of T1D adversely affected parental ratings of their child's emotional, behavioural or social functioning, or impacted upon parenting style. There was no adverse effect upon the child's assessment of their self-concept. This study provides important preliminary data concerning longer-term psychosocial effects of incorporating tests for genetic risk of complex disorders into
NBS
panels. While it is reassuring that no significant adverse effects have been detected, more data will be required to adequately inform policy.
...
PMID:Psychosocial effects in parents and children 12 years after newborn genetic screening for type 1 diabetes. 2812 Aug 38
